The Sizing of Paper Third Edition
Papermaking Additives Committee
Edited by Jerome M. Gess, Ph.D.
and Jose M. Rodriguez, Ph.D.
ii The Sizing of Paper
Preface In 1999, the Papermaking Additives Committee decided to completely rewrite the TAPPI Monograph, “The Sizing of Paper”. Since the last edition that was compiled and edited in 1889 by Walter F. Reynolds, most of the paper mills have converted to neutral or alkaline pH wet end conditions. Therefore, this new monograph reflects the new application experiences and technologies. To accomplish this end, we followed the general format established in previous monographs. We broke down the project into specific product lines. The authors selected for each topic were experts in their field. Furthermore, we expanded the size press surface sizing sections so that we could accommodate the new interests generated by this technology. We hope that this compilation of chapters will be of some help to paper mill technical people, students, chemists and mill engineers. Finally, I would like to give special thanks to Lori Murphy and Eric R. Wagner at for doing some of the secretarial and editing, Columbia River Carbonates for giving me the resources to edit this book and to members of our families for putting up with us. Also, I would like to thank Dr. C. M. Wai for giving me general advice during the making of this monograph.
J. M. Rodriguez, Ph.D. J. M. Gess, Ph.D.
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ISBN 1-59510-073-3
TP 0101R311
Printed in the United States of America
iv The Sizing of Paper
Contributors
T. Arnson G. L. Batten, Jr. S. Boone R. E. Cates B. Crouse D. H. Dumas D. B. Evans N. L. Franchina J. M. Gess R. T. Gray W. Griggs
M. J. Jaycock R. L. Kearney M. A. May C. C. Olson D. S. Rende P. W. Resler J. M. Rodriguez J. Sajbel D. K. Swales D. F. Varnell P. Wilson
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Table of Contents Preface ii List of Contributors iii Chapter 1: A Short History into the “Sizing” of Paper 1 J. M. Gess Introduction 1
The Derivation of the Words “Size” and “Sizing” 1 What is Meant by “Size” and “Sizing” 1
Background 2 The “Internal Sizing” of Paper 3
The Acid Papermaking Days (1798-1950’s) 3 The Neutral/Alkaline Era 5
Further Reading 6 References 6
Chapter 2: Mechanisms of Paper and Board Wetting 9 J. M. Rodriguez Introduction 9 Contact Angle 9 Young’s Equation 10 The Spreading Coefficient 10 The Effect of Surface Roughness and Heterogeneous Surfaces on Contact Angles and Wetting 10 The Thermodynamics of Wetting 12
Classification of the Wetting Process 13 Determinations of Surface Energy 14
Dynamic Wetting 17 Dynamic Wetting of Paper and Board 20 The Wetting of Fibers 21 Capillary Penetration 23 References 24
vi The Sizing of Paper
Chapter 3: The Chemistry of Aluminum 27 M. J. Jaycock and D. K. Swales Introduction 27 The Basic Chemistry of Aluminum 29 The Study of Aluminum Hydrolysis 30 Implications of the Studies of Aluminum Hydrolysis in Papermaking Systems 44 Aluminum Ions and Rosin Sizing, particularly under Near Neutral Conditions 46 References 52 Chapter 4: Rosin 57 J. M. Gess Background 57 Types of Rosin 57 Use of Rosin in the Papermaking Process 62
pH Range 62 The Reaction of Rosin and Alum 63
Sizing 68 Alum in the Papermaking Process 69 Problems in the Rosin Sizing of Cellulose Fibers 69
The Structure of the Sheet of Paper that was Formed 70 Anionic Carryover 70 High Sulfate Content 72 Surfactants in the System 72 Conductivity 72 Changes in Fines Retention 73
References 73 Chapter 5: Rosin Size 75 G. L. Batten, Jr. Introduction 75 General Considerations for Rosin Sizing 75 Basic Chemical Considerations 75
Alum Chemistry 78 Degree of Neutralization of Alum (DNA) 81 Further Comments on the DNA Titration 85 DNA, Total Acidity, Free Aluminum, Total Aluminum 87
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Soap Size 90
Addition Point Considerations for Rosin Soap Sizes 93 Drying 96 Pulp, Filler, Fines, and Process Chemicals 97 Rosin Soap Size Handling 102 Troubleshooting Rosin Soap Sizing Problems 104 Rosin Soap Sizes-Pros and Cons 109
Dispersed Size 110 Basic Chemical Considerations 110 Dispersed Rosin Size 112 Dispersion Stabilization 115 Addition Point Considerations 119 Post Addition of Cationic Polymer 123 Drying, Pulp, Filler, Fines, and Process Chemicals 124 Dispersed Size Handling 124 Troubleshooting Dispersed Rosin Sizing Problems 125 Dispersed Rosin Size-Pros and Cons 126
Dispersed Size under Neutral Papermaking Conditions 127 Alternate Sources of Aluminum 128 Limits to Neutral Rosin Sizing 131 Miscellaneous Considerations for Neutral Rosin Sizing 132
References 132 Chapter 6: Soap Size vs. Dispersed Size 135 J. M. Gess Understanding How Both Rosin Soap and Dispersed Rosin Acid Impart Sizing 135 Notes on Dispersed Size 137 Thin Stock versus Thick Stock Addition of Size 140 Chapter 7: Internal Sizing with Stearic Acid 143 T. Arnson, B. Crouse, W. Griggs. Introduction 143 Properties of Commercial Stearic Acid 143 Preparation and Delivery of Stearic Acid for Sizing 144 Development of Sizing with Stearic Acid 145 Sizing Response with Stearic acid Size 147 Mill problems with Stearic Sizes 148
Stearate Spots 148 Wet Press Roll Adhesion and Stearate Plating 148
viii The Sizing of Paper
Vapor Phase Migration of Stearate 149 Strength Loss 149 Acid System 149 Preferred Uses of Stearic Acid Size 149
References 150
Chapter 8: Fluorochemical Sizing 151 C. C. Olson, N. L. Franchina, P. W. Resler and M. A. May Introduction 151 Oil and Polar Fluid Resistant Papers 152 Types of Commercial Fluorochemicals 154 Fluorochemical Treatment Application Modes 158
Size Press Application 158 Internal Application (wet end) 168 Pigmented Coated Application 169 Calender Stack Application 173
Effect of Machine and Post-Treatment Operations 173 Testing Fluorochemically Treated Papers 174 References 177
Chapter 9: Alkenyl Succinic Anhydride(ASA) 179 J. M. Gess and D. S. Rende Introduction 179 Background and Theory 179 The Distribution of ASA Through a Papermaking System 180 The Reaction of a Sizing Agent with the Cellulose Substrate 183 The Use of ASA 186
The Purchase and Storage of ASA 186 The Emulsification of ASA 187
ASA and Cationic Starch 187 The Use of ASA/Cationic Starch Emulsions 189
Conclusions 191 References 192
Chapter 10: Alkyl Ketene Dimer Sizes 193 R. E. Cates, D. H. Dumas, D. B. Evans, and J. M. Rodriguez Introduction 193 Chemical Properties 193 Sizing Mechanism 194
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AKD Retention 194 AKD Distribution 196 AKD Cellulose Reaction 196 AKD-Water Reaction 197 Emulsion Properties 198 Practical Considerations 198 Effect on pH, Alkalinity, Alum and Wet-end Additives 198 Effects of Fillers 201 Pulp Type 202 Other Additives 203 Alkaline Papermaking using AKD 203 Use of AKD for Highly-sized Paper and Board 204 Use of AKD in Calcium Carbonate Filled Papers 205 Use of AKD for Improved Paper Performance 206 Potential Problems in Alkaline Papermaking using AKD Size 206 Surface Sizing using AKD 207 References 208
Chapter 11: Surface Sizing 211 P. Wilson Surface Sizing 211 Pick-up 211 Influences on Pick-up 212
Hercules Size Test (Internal Sizing) 212 Porosity 213 Size Press Solution Solids Content 213 Paper Machine Speed 214
Mechanisms of Size Press Pick-up 214 Theoretical Considerations 215 Size Press Configuration 217
Pond/nip Type Size Presses 217 Starch Pickup in Puddle Type Size Presses 223 Metering Size Presses 223 Gate Roll Size Presses 224
Cationic Starch for Use in the Pond or Metering Press 225 Functional Property Response 226
Water Resistance 226 Wet Rub and Wet Pick Resistance 226 Internal Strength 226 Surface Strength 227 Porosity 227 Non-Aqueous Holdout 227 Ink Receptivity and Show-through 228 Opacity 228
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Problems Encountered 228 Foam 228 Surface Slipperiness 229 Nip Rejection 229 Blocking of Reel 229
Important Properties of Size Press Formulation 229 Combinations of Size Press Additives 229 Interaction with Subsequent Coatings 230 Effects of Wet End Conditions 230 Effect of Higher Speeds 230 Effect of Moisture Entering Size Press 231 Effect of Additives on Drying 231
Advantages and Disadvantages 231 Effects of Forming 231 The after Size or Metering Press Dryers 232
References 233 Appendix A 234 Starch in the Papermaking Process 234 Size Press Starch 234 References 235 Chapter 12: Starch 237 R. L. Kearney Abstract 237 Introduction 237 Starch 238 Fundamentals 238 Oxidized Starches 240 Viscosity Reduction by the User-Enzyme Conversion 241 Thermal Conversion and Jet Cooking 241 Continuous High Temperature Chemical (AP) Conversion 242 Starch Derivatives 242 Starch Paste Preparation 243 Starch Spoilage 243 Cooked Starch 245 The Cleaning of Pipe Lines and Equipment Used for Starch 246 Chemical Methods of Control 246 Specialty Starches 247
Starch Copolymers 247 Summary 248 References 248
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Chapter 13: Size Press Starch 249 P. Wilson Size Press Starch 249 Design Considerations for Starch Systems 250
Starch Handling and Cooking 250 Introduction 250 Bulk Starch Handling 250
References 256
Chapter 14: Surface Sizing 257 R. T. Gray and D. S. Rende
Introduction 257 Equipment 258
Pond-Type Size Press 258 Gate-Roll Size Press 260 Metered Size Press 261
Factors Influencing Solution Pickup 265 Machine Speed 267 Nip Loading and Roll Hardness 269 Solution Viscosity 269 Surface Chemistry of Sheet 269 Base Sheet Porosity 271 Base Sheet Smoothness 271
Chemistry 271 Starch 271 Alkaline Internal Sizing Additives 273 Polymeric Sizing Additives 273
Styrene Maleic Anhydride (SMA) 274 Styrene Acrylic Acid (SAA) 276 Styrene Acrylate Emulsion (SAE) 276 Polyurethane Dispersions (PUD) 278 Ethylene Acrylic Acid (EAA) 278
Other Size Press Additives 279 Delivery of Size Press Solution 280
Applications 281 Surface Strength 281 Internal Strength 281 Print Quality 282 Other Applications 282
Summary 282 References 283
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Chapter 15: Surface Sizing Additives 287 J. Sajbel Definition and History of Surface Sizing 287 Types of Surface Sizing Agents 287
Acrylic Emulsion Products 287 Polyurethanes 290 Styrene Acrylic Solutions 290 Styrene Maleic Anhydride 291
Methods of Application 291 Size Press Formulation and Conditions 292 Size Testing 293 Performance/Effects 294
Inkjet Grades 294 Laser/Copier Grades 296 Offsets, Opaques 296 Artist Pen+Ink Grades 297 SCA Grades 297 Boards 297
Performance Testing 297 Inkjet Printing Evaluations 297 Laser/Copier Printing Evaluations 298 Toners and Toner Adhesion 298 Offset Testing 299
Summary 299 Chapter 16: Testing of Paper and Board Sizing 301 S. Boone Introduction 301 Definitions 302 Mechanism of the Sorption of Water by Paper and Paperboard 302 Testing of Paper for Sizing 304 Factors Affecting Testing 307
Effect of Temperature 307 Effect of Moisture Content of Paper 309 Effect of Hydraulic Head 310 Composition of the Test Liquid 310 Preparation of the Sample 311
Factors Influencing the Choice of test Method 311 Types of Sizing Tests 313 Test Procedures 313
Penetration Tests 314 Through Surface 314
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Surface Resistance Tests 327 Secondary Paper Properties 332
Index of TAPPI Sizing Test Methods 336 References 341 Chapter 17: The Effect of Internal Size Additives on Print Quality 345 D. F. Varnell Introduction and Experimental 345 Observations on Sizing 346 Electroreprographic Printing 348 Ink Jet Printing 351 Proposed Theory 356 References 357
Index 359
xiv The Sizing of Paper